Use iPhone to build a Wiimote-style Controller

Do you like playing motion-sensing games like this? Have you ever thought that it might be prohibitively expensive to play such a cool game? Actually, you can use your mobile phone to play just like that. Below is a demo.

If you want to use your phone to play games like above, you can just follow these steps below, which is a easy approach.

Prerequisite

Device Motion Intro

As we can see, HTML5 provide some apis for device motions, these apis can help us to identify our device’s orientation and movements. And we can use them to create some amazing apps such as Compass and Pedometer. Also, we can use them to create a remote Game Controller like Wii.
The device motion event fires on a regular interval and returns data about the rotation (in ° per second) and acceleration (in m per second2) of the device, at that moment in time. Some devices do not have the hardware to exclude the effect of gravity.

The event returns four properties, accelerationIncludingGravity, acceleration, which excludes the effects of gravity, rotationRate and interval.

For example, let’s take a look at a phone, lying on a flat table, with its screen facing up.

State

Rotation

Acceleration(m/s2)

Acceleration with gravity (m/s2)

Not moving

[0, 0, 0]

[0, 0, 0]

[0, 0, 9.8]

Moving up towards the sky

[0, 0, 0]

[0, 0, 5]

[0, 0, 14.81]

Moving only to the right

[0, 0, 0]

[3, 0, 0]

[3, 0, 9.81]

Moving up & to the right

[0, 0, 0]

[5, 0, 5]

[5, 0, 14.81]

Conversely, if the phone were held so the screen was perpendicular to the ground, and was directly visible to the viewer:

State

Rotation

Acceleration(m/s2)

Acceleration with gravity (m/s2)

Not moving

[0, 0, 0]

[0, 0, 0]

[0, 9.81, 0]

Moving up towards the sky

[0, 0, 0]

[0, 5, 0]

[0, 14.81, 0]

Moving only to the right

[0, 0, 0]

[3, 0, 0]

[3, 9.81, 0]

Moving up & to the right

[0, 0, 0]

[5, 5, 0]

[5, 14.81, 0]

Therefore, we can use acceleration to simulate four basic directions: UP, DOWN, LEFT, RIGHT

Send Messages to PC

We can utilize socket.io to keep a connection between PC and iPhone. By doing this, the messages sent from iPhone can be received by PC, which is the key to simulate a remote Game Controller with iPhone.

Server Side:

varexpress=require('express');varapp=express();varhttp=require('http').Server(app);vario=require('socket.io')(http);app.use(express.static(__dirname));// send messages to Browser on PC once receiving them from devicesio.on('connection',function(socket){socket.on('direction',function(msg){io.emit('direction',msg);});});// start a serverhttp.listen(3000,function(){console.log('listening on *:3000');});

Client Side:

mobile.html (loaded by iPhone):

<script src="/socket.io/socket.io.js"></script><script>// send direction info to server sidefunctioninfoSend(direction){varsocket=io();setTimeout(function(){// fix some incorrect directions when you move the devicecount--;if(count===0){socket.emit('direction',direction);}},100);count++;}// detect the direction of devicefunctiondeviceMotionHandler(event){varacceleration=event.acceleration;if(acceleration.x>10){infoSend('RIGHT');}elseif(acceleration.x<-10){infoSend('LEFT');}if(acceleration.y>10){infoSend('UP');}elseif(acceleration.y<-10){infoSend('DOWN');}}if(window.DeviceMotionEvent){varcount=0;window.addEventListener('devicemotion',deviceMotionHandler,false);}</script>

browser.html (loaded by Browser on PC such as Chrome) :

<script src="/socket.io/socket.io.js"></script><script>varsocket=io();socket.on('direction',function(msg){console.log(msg);varkeyCode;switch(msg){case'UP':keyCode=38;break;case'RIGHT':keyCode=39;break;case'DOWN':keyCode=40;break;case'LEFT':keyCode=37;break;}snaky.move({keyCode:keyCode});// simulate arrow keypress and make the snake move})</script>

Now, all the fundamental work has been done. The rest is just to add some UI to respond to users.
This demo has been hold on Github , you can fork it to make your own funny games.

Rotation Data

HTML5 also provide some Rotation-related apis, here are some basic instructions. You can visit this page to get more details.

Alpha

The rotation around the z axis and is 0° when the top of the device is pointed directly north. As the device is rotated counter-clockwise the alpha value increases.

Beta

The rotation around the x axis and is 0° when the top and bottom of the device are equidistant from the surface of the earth. The value increases as the top of the device is tipped toward the surface of the earth.

Gamma

The rotation around the y axis and is 0° when the left and right of the device are equidistant from the surface of the earth. The value increases as the the right side is tipped towards the surface of the earth.